Evaluation of wear resistance and surface properties of additively manufactured restorative dental materials

To evaluate the wear resistance of three additively manufactured dental crown materials (NextDent C&B MFH, Saremco print CROWNTEC and Bego VarseoSmile Crown) under two environmental conditions (dry and artificial saliva), two loads (49 N and 70 N) and two surface treatments (polished and glazed)...

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Bibliographic Details
Published in:Journal of dentistry 2024-08, Vol.147, p.105120, Article 105120
Main Authors: Grymak, Anastasiia, Aarts, John M, Cameron, Andrew B, Choi, Joanne Jung Eun
Format: Article
Language:English
Subjects:
3D-printing
Additive Manufacturing
Coefficient of Friction
CoF
Crowns
Dental Materials - chemistry
Dental Polishing
Dental Restoration Wear
Dental Stress Analysis
Dental Wear
Friction
Humans
Materials Testing
Microscopy, Confocal
Saliva, Artificial - chemistry
Stainless Steel - chemistry
Surface Properties
Three-body-wear
Two-body-wear
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Summary:To evaluate the wear resistance of three additively manufactured dental crown materials (NextDent C&B MFH, Saremco print CROWNTEC and Bego VarseoSmile Crown) under two environmental conditions (dry and artificial saliva), two loads (49 N and 70 N) and two surface treatments (polished and glazed). A total of 120 specimens were divided into 24 groups and tested for wear under two loads (49 N and 70 N), surface treatment (polished or glazed), and environment (dry or submerged in artificial saliva). All samples underwent reciprocating wear testing at 1 Hz using a wear simulator, replicating 48 months of In Vivo conditions with a stainless-steel ball as the antagonist. The coefficient of friction (CoF), surface roughness, volumetric and vertical wear loss were measured and statistically analysed. Confocal microscopy assessed the surface properties of crown materials and the antagonists. The NextDent material demonstrated the most homogenous wear, with relatively low vertical and volumetric loss across all groups (p < 0.004). NextDent and Bego materials performed similarly in artificial saliva regardless of the load type (p > 1.000). The CoF remained below 0.3 for all groups. All groups exhibited significant increases in surface roughness after testing, however, this did not correlate with an increase in the CoF. Confocal analysis revealed material deformities due to load and notable scratch marks on the stainless-steel antagonists. It was found that all investigated addtively manufactured materials can be suggested for provisional use. Both vertical loss and volumetric loss results should be included for material evaluation. CoF and surface roughness should be implemented into wear evaluation. This study highlights the practical value of additively manufactured dental crown materials, particularly for provisional restorations. However, their extended use requires careful consideration of individual patient needs, emphasising the need for judicious clinical application evaluation.
ISSN:0300-5712
1879-176X
1879-176X
DOI:10.1016/j.jdent.2024.105120